Bounded Set

*"Bounded" and "boundary" are distinct concepts; for the latter see boundary (topology). A circle in isolation is a boundaryless bounded set, while the half plane is unbounded yet has a boundary.*

In mathematical analysis and related areas of mathematics, a set is called **bounded**, if it is, in a certain sense, of finite size. Conversely, a set which is not bounded is called **unbounded**. The word bounded makes no sense in a general topological space without a corresponding metric.

A set *S* of real numbers is called *bounded from above* if there is a real number *k* such that *k* >= * s* for all *s* in *S*. The number *k* is called an **upper bound** of *S*. The terms *bounded from below* and **lower bound** are similarly defined.

A set *S* is **bounded** if it has both upper and lower bounds. Therefore, a set of real numbers is bounded if it is contained in a finite interval.

A subset *S* of a metric space (*M*, *d*) is **bounded** if it is contained in a ball of finite radius, i.e. if there exists *x* in *M* and *r* > 0 such that for all *s* in *S*, we have d(*x*, *s*) < *r*. (*M*, *d*) is a *bounded* metric space (or *d* is a *bounded* metric) if *M* is bounded as a subset of itself.

- Total boundlessness implies boundlessness. For subsets of
**R**^{n}the two are equivalent. - A metric space is compact if and only if it is complete and totally bounded.
- A subset of Euclidean space
**R**^{n}is compact if and only if it is closed and bounded.

In topological vector spaces, a different definition for bounded sets exists which is sometimes called von Neumann boundedness. If the topology of the topological vector space is induced by a metric which is homogeneous, as in the case of a metric induced by the norm of normed vector spaces, then the two definitions coincide.

A set of real numbers is bounded if and only if it has an upper and lower bound. This definition is extendable to subsets of any partially ordered set. Note that this more general concept of boundedness does not correspond to a notion of "size".

A subset *S* of a partially ordered set *P* is called **bounded above** if there is an element *k* in *P* such that *k* >= *s* for all *s* in *S*. The element *k* is called an **upper bound** of *S*. The concepts of **bounded below** and **lower bound** are defined similarly. (See also upper and lower bounds.)

A subset *S* of a partially ordered set *P* is called **bounded** if it has both an upper and a lower bound, or equivalently, if it is contained in an interval. Note that this is not just a property of the set *S* but also one of the set *S* as subset of *P*.

A **bounded poset** *P* (that is, by itself, not as subset) is one that has a least element and a greatest element. Note that this concept of boundedness has nothing to do with finite size, and that a subset *S* of a bounded poset *P* with as order the restriction of the order on *P* is not necessarily a bounded poset.

A subset *S* of **R**^{n} is bounded with respect to the Euclidean distance if and only if it bounded as subset of **R**^{n} with the product order. However, *S* may be bounded as subset of **R**^{n} with the lexicographical order, but not with respect to the Euclidean distance.

A class of ordinal numbers is said to be unbounded, or cofinal, when given any ordinal, there is always some element of the class greater than it. Thus in this case "unbounded" does not mean unbounded by itself but unbounded as a subclass of the class of all ordinal numbers.

- R. G. Bartle y D. R. Sherbert:
*Introduction to Real Analysis*, translated., ed. Limusa S.A. 2009. - Robert D. Richmyer,
*Principles of advanced mathematical physics*, Springer-Verlag, New York, 1978.

This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.

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